Periodic Properties electron configurations properties hydrogen atom1 electron to remove e - n f = ∞ E = x x atoms atommol = 1311 kJ mol Z = 1 from ground staten i = x J E = 1 nf2nf2 - 1 ni2ni2 - R H Z2Z2 nuclear charge 1s11s1 Ionization Energy, I
He + Z = +2 E = 1 nf2nf2 - 1 ni2ni2 - R H Z2Z2 = 5250 kJ/mol 1s11s1 E = 5250 kJ/mol systems with more than 1 electron studied experimentallyionization reactions higher nuclear chargelowers orbital energy stabilizes system H1s11s1 Z = +1 E = 1311 kJ/mol
1.Effect of 2 electrons in same orbital He 1s21s2 Z = +2 E = 2372 kJ/mol same nuclear charge orbital energy higher e - e - repulsion less stable easier to remove e - He + 1s11s1 E = 5250 kJ/mol
2.Effect of electrons in different orbital Li Li 2+ 1s21s2 2s12s1 Z = +3 E = 2954 kJ/mol E = 520 kJ/mol same nuclear charge 3+ ground state2s12s1 excited state 1s1s 1s1s 2s2s2s2s inner electrons shielding charge Z eff < Z
3.Effect of orbital shape Li 1s21s2 1s21s2 Z = +3 E = 341 kJ/mol E = 520 kJ/mol same nuclear charge ground state2s12s1 excited state2p12p1 3+ 1s1s 2s2s 1s1s 2p2p s orbitals penetratinglower energy
determines orbital energiesPotential Energy 1. Greater nuclear charge (Z) lowers energy 2.Electron-electron repulsionraise energy electrons more difficult to remove electrons easier to remove electrons shield Z inner electrons shield better 3.Orbitals with more penetrationlower energy electrons more difficult to remove s < p < d < f
I 1 decreaseZ eff decreasesmore shielding e - I 1 increaseZ increases shielding stays same core e - adding valence e - core e - unchanged
5+ 1s1s 2s2s 2p2p s1s 2s2s 2p2p BNe
4+ 1s1s 2s2s Be B 5+ 1s1s 2s2s 2p2p - - N O e - e - repulsion
Ionization Energy Na I1I1 I2I2 I3I3 I4I4 I5I5 I6I6 I7I7 Mg Al Si P S Cl Ar ,600 16,100 21,200 27,000 very difficult to remove core electrons Second
Atomic Radius increase in size n dominates decrease in size Z eff dominates
Electron Affinity Energy given off when a gas phase atom gains e - Cl (g) + e - Cl - (g) Increases Z eff increases Noble gases – no tendency to gain e -
Summary atomic radius decreases ionization energy increases electron affinity increases atomic radius increases ionization energy decreases Z eff n metals lose e - non-metals gain e -